GX: a GPU-native gyrokinetic turbulence code for tokamak and stellarator design

Mandell, N.R.; Dorland, W.; Abel, I.; Gaur, R.; Kim, P.; Martin, M.; Qian, T.

doi:10.1017/s0022377824000631

J. Plasma Phys.

2024

DOI: 10.1017/s0022377824000631

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GX: a GPU-native gyrokinetic turbulence code for tokamak and stellarator design

N.R. Mandell,

W. Dorland,

I. Abel

et al.

Abstract: GX is a code designed to solve the nonlinear gyrokinetic system for low-frequency turbulence in magnetized plasmas, particularly tokamaks and stellarators. In GX, our primary motivation and target is a fast gyrokinetic solver that can be used for fusion reactor design and optimization along with wide-ranging physics exploration. This has led to several code and algorithm design decisions, specifically chosen to prioritize time to solution. First, we have used a discretization algorithm that is pseudospectral i… Show more

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2024

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Cited by 2 publications

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Optimization of nonlinear turbulence in stellarators

Kim,

Buller,

Conlin

et al. 2024

J. Plasma Phys.

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We present new stellarator equilibria that have been optimized for reduced turbulent transport using nonlinear gyrokinetic simulations within the optimization loop. The optimization routine involves coupling the pseudo-spectral GPU-native gyrokinetic code GX with the stellarator equilibrium and optimization code DESC. Since using GX allows for fast nonlinear simulations, we directly optimize for reduced nonlinear heat fluxes. To handle the noisy heat flux traces returned by these simulations, we employ the simultaneous perturbation stochastic approximation (SPSA) method that only uses two objective function evaluations for a simple estimate of the gradient. We show several examples that optimize for both reduced heat fluxes and good quasi-symmetry as a proxy for low neoclassical transport. Finally, we run full transport simulations using the T3D stellarator transport code to evaluate the changes in the macroscopic profiles.

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Optimization of nonlinear turbulence in stellarators

Kim,

Buller,

Conlin

et al. 2024

J. Plasma Phys.

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Reduced electrostatic turbulence in the quasi-isodynamic stellarator configuration CIEMAT-QI4

García-Regaña,

Calvo,

Sánchez

et al. 2024

Nucl. Fusion

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CIEMAT-QI4 is a quasi-isodynamic stellarator configuration that simultaneously features very good fast-ion confinement in a broad range of β values, low neoclassical transport and bootstrap current, and ideal magnetohydrodynamic stability up to β=5%. In this paper it is shown that CIEMAT-QI4 also exhibits reduced turbulent transport. This is demonstrated through nonlinear electrostatic simulations with the gyrokinetic code stella, including kinetic ions and electrons. The relation between reduced turbulent transport and the fact that CIEMAT-QI4 very approximately satisfies the so-called maximum-J property is discussed.

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GX: a GPU-native gyrokinetic turbulence code for tokamak and stellarator design

Cited by 2 publications

References 74 publications

Optimization of nonlinear turbulence in stellarators

Optimization of nonlinear turbulence in stellarators

Reduced electrostatic turbulence in the quasi-isodynamic stellarator configuration CIEMAT-QI4

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